US20150223397A1 - Automatic mowing blade engagement and disengagement for winged mower - Google Patents
Automatic mowing blade engagement and disengagement for winged mower Download PDFInfo
- Publication number
- US20150223397A1 US20150223397A1 US14/424,858 US201314424858A US2015223397A1 US 20150223397 A1 US20150223397 A1 US 20150223397A1 US 201314424858 A US201314424858 A US 201314424858A US 2015223397 A1 US2015223397 A1 US 2015223397A1
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- US
- United States
- Prior art keywords
- mowing apparatus
- wing
- drive
- belt
- coupling
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Abandoned
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Classifications
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D34/00—Mowers; Mowing apparatus of harvesters
- A01D34/01—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus
- A01D34/412—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters
- A01D34/63—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis
- A01D34/64—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis mounted on a vehicle, e.g. a tractor, or drawn by an animal or a vehicle
- A01D34/66—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis mounted on a vehicle, e.g. a tractor, or drawn by an animal or a vehicle with two or more cutters
- A01D34/661—Mounting means
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- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D34/00—Mowers; Mowing apparatus of harvesters
- A01D34/01—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus
- A01D34/412—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters
- A01D34/63—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis
- A01D34/64—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis mounted on a vehicle, e.g. a tractor, or drawn by an animal or a vehicle
- A01D34/66—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis mounted on a vehicle, e.g. a tractor, or drawn by an animal or a vehicle with two or more cutters
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D34/00—Mowers; Mowing apparatus of harvesters
- A01D34/01—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus
- A01D34/412—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters
- A01D34/63—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis
- A01D34/73—Cutting apparatus
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D34/00—Mowers; Mowing apparatus of harvesters
- A01D34/01—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus
- A01D34/412—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters
- A01D34/63—Mowers; Mowing apparatus of harvesters characterised by features relating to the type of cutting apparatus having rotating cutters having cutters rotating about a vertical axis
- A01D34/76—Driving mechanisms for the cutters
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D67/00—Undercarriages or frames specially adapted for harvesters or mowers; Mechanisms for adjusting the frame; Platforms
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D75/00—Accessories for harvesters or mowers
- A01D75/30—Arrangements for trailing two or more mowers
- A01D75/303—Arrangements for trailing two or more mowers for mowers positioned one behind the other or side by side
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D75/00—Accessories for harvesters or mowers
- A01D75/30—Arrangements for trailing two or more mowers
- A01D75/306—Arrangements for trailing two or more mowers for lawn mowers positioned one behind the other or side by side
-
- A—HUMAN NECESSITIES
- A01—AGRICULTURE; FORESTRY; ANIMAL HUSBANDRY; HUNTING; TRAPPING; FISHING
- A01D—HARVESTING; MOWING
- A01D2101/00—Lawn-mowers
Definitions
- This invention relates to a mechanism for automatically engaging and/or disengaging a mowing blade of a pivotable mowing wing, and particularly but not exclusively to a mechanism for automatically engaging and/or disengaging a mowing blade of a pivotable mowing wing of a co-axial vertical drive belt mowing apparatus.
- the horizontal plane is defined in as the plane parallel to the ground on which the mowing apparatus is situated.
- the vertical direction is defined as the direction perpendicular to the above-defined horizontal plane i.e. perpendicular to the plane of the ground on which the mowing apparatus is situated. It will be appreciated that this may differ slightly from the vertical direction defined in terms of the direction of gravity if the mower is situated on sloping ground.
- Mowers are widely used for cutting grass and plant matter.
- a wide variety of mowers are available for both domestic and industrial use including push-mowers, self-propelled mowers and tractor-drawn mowers.
- the present invention predominantly relates to self-propelled mowers and tractor-drawn mowers for agricultural or other industrial use but is not limited to this application.
- a typical self-propelled (ride-on) mower comprises a body portion having a plurality of mowing blades located on its disposed face.
- the mowing blades are powered by a drive pulley, which receives energy from a rotary drive.
- the mower may also comprise one or more wing portions pivotally coupled to the body portion. Generally two wing portions are disposed laterally either side of the body portion with respect to the direction of travel of the mower.
- a third wing portion may also be disposed rearwardly of the body portion with respect to the direction of travel.
- An underside of each wing portion comprises a plurality of mowing blades powered by a driven pulley operatively coupled to the drive pulley.
- a typical tractor-drawn mower comprises a body portion and one or more wing portions pivotally coupled thereto.
- the body portion includes attachment means for detachably coupling to a tractor (for example via a 3 -point hitch of the tractor) and a rotary drive assembly arranged to receive power from a Power Take Off (PTO) of the tractor.
- PTO Power Take Off
- a plurality of mowing places are disposed on the lower face of the body portion and powered by the drive assembly via a drive pulley.
- the wing portions are generally disposed laterally of the body portion but the mower may also comprise a wing portion disposed rearwardly of the body portion.
- An underside of each wing portion includes a plurality of mowing blades powered by a driven pulley operatively coupled to the drive pulley.
- the pivotal coupling between the body portion and wing portions enables rotation of the wing portions between a lowered position and a raised position.
- each wing portion In the lowered position, each wing portion is aligned such that its underside is substantially in the horizontal plane i.e. substantially parallel to the plane of the ground below the mowing apparatus.
- the wing portions In order to cut grass or other plant material, the wing portions are configured in the lowered position and the mowing blades are engaged.
- the wing portions In the raised position, the wing portions are pivoted away from the ground, typically at an angle of approximately 90 degrees relative to the ground. Whilst in the raised position, the footprint of the mowing apparatus is substantially reduced, thereby facilitating transport and storage.
- One known drive system comprises a horizontal drive belt arrangement.
- the drive pulley and driven pulley have substantially vertical axes of rotation.
- the drive belt becomes slack when the wing portion is raised above approximately 13 degrees relative to the ground. Accordingly, the mowing blades disposed on the underside of the wing portions are disengaged when the wing is raised above this angle. It will be appreciated that this greatly limits the ability of the mowing apparatus to follow ground undulations whilst maintaining drive to the blades.
- the drive belt must be checked and adjusted on a regular basis in order to maintain efficient engagement between the belt and the pulleys and to minimise belt wear. This requires the attention of a skilled mechanic and can result in significant machine downtime.
- the driven pulley may be mounted co-axially with the axis of rotation of the wing portion, or it may be displaced therefrom.
- the position of both the drive pulley and the driven pulley is fixed throughout the range of movement of the wing portion and hence the driven pulley remains operatively coupled to the drive pulley and the mowing blades remain engaged when the wing portion is raised.
- one known device includes a push rod that is displaced within the gearbox and forces the disengagement of the mowing blades.
- a major problem with this arrangement is that it is similar to putting a vehicle in gear without depressing the clutch and thus it causes significant wear and tear to the gearbox.
- the mowing blades cannot be re-engaged once the wing has been lowered again unless this is done manually, thereby requiring the operator to leave the safe environment of his cab.
- the position of the driven pulley with respect to the drive pulley varies in accordance with the angular position of the wing portion.
- the drive belt maintains its tension for a limited angular range of motion, typically becoming slack and thus disengaging the mowing blades once the wing portion is raised above an angle of 20 degrees to the horizontal.
- a disadvantage of this arrangement is that it limits the ability of the mowing apparatus to follow ground undulations whilst maintaining drive to the blades.
- the drive belt must be checked and adjusted on a regular basis to maintain efficient drive and to minimise belt wear.
- a mowing apparatus comprising:
- a body portion comprising rotary drive means
- a wing portion for engaging the grass or other plant matter to be cut, the wing portion comprising rotary cutting means arranged to cut the grass or other plant matter and being pivotable about a main axis relative to the body portion between a lowered cutting position and a raised position; and,
- the cutting means of the wing portion is automatically engaged or disengaged as the angular position of the wing portion is varied, thereby alleviating the safety risk associated with the exposed mowing blades.
- the coupling means preferably comprises:
- a first pulley provided on the body and coupled to said rotary drive means
- a second pulley mounted on the wing portion for rotation about an axis which extends longitudinally of said main axis, the second pulley being connected to said cutting means
- a belt tensioner arranged to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
- the axis of rotation of the second pulley is preferably co-axial with the main axis.
- the axis of rotation of the first pulley is preferably substantially parallel to the axis of rotation of the second pulley. More preferably, the axis of rotation of both the first and second pulleys is substantially in the horizontal plane i.e. the mowing apparatus is preferably of the co-axial vertical drive belt type.
- the belt tensioner comprises an idler pulley and is preferably rotatably mounted so as to displace the idler pulley via rotation of the belt tensioner, the displacement of the idler pulley preferably acting to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
- the idler pulley may be biased towards the belt by biasing means, which may comprise a spring and preferably comprises a gas spring.
- the coupling means may further comprise an arm pivotally coupled at its proximal end to the body portion.
- the idler pulley may be disposed on the arm such that rotation of the arm acts to displace the idler pulley and thereby vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
- the wing portion is inclined at an angle of approximately 30 degrees to the horizontal plane in said partially raised position.
- the term “approximately” should be interpreted as within 10 degrees.
- the coupling means preferably comprises a cam and a cam follower respectively provided on said portions, the drive and cutting means being coupled and decoupled by the cam follower according to the profile of the cam.
- the cam is preferably disposed at an edge of the wing portion proximal to the body portion.
- an axis of rotation of the cam is substantially parallel to the main axis, and most preferably coaxial with the main axis. It will be appreciated that in this arrangement, the wing portion and the cam rotate concurrently i.e. the degree of rotation of the cam is equivalent to the degree of rotation of the wing portion.
- the cam is a disk cam, the cam follower preferably moving in plane perpendicular to axis of cam.
- the cam preferably comprises an outer radial edge comprising a first radial dimension and a second circumferentially spaced radial dimension, wherein the second radial dimension is not equal to the first radial dimension.
- the second radial dimension is preferably greater than the first radial dimension.
- the belt couples the drive and cutting means when the outer radial edge at the contact location comprises the first radial dimension whilst the drive and cutting means are decoupled when the outer radial edge at the contact location comprises the second radial dimension.
- the outer radial edge of the cam comprises the first radial dimension when the angular position of the wing portion is such that the wing portion is inclined at an angle of less than approximately 30 degrees to the horizontal plane.
- the term “approximately” should be interpreted as within 10 degrees.
- the outer radial edge of the cam comprises the second radial dimension when the angular position of the wing portion is such that the wing portion is inclined at an angle of greater than approximately 30 degrees.
- the term “approximately” should be interpreted as within 10 degrees. It will be appreciated that in this preferred embodiment, the belt couples the drive and cutting means when the wing portion forms an angle of less than approximately 30 degrees to the horizontal plane, whilst the drive and cutting means are decoupled when the wing portion forms an angle of greater than approximately 30 degrees to the horizontal plane.
- the cam follower may be arranged to displace the belt tensioner so as to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
- the cam follower is located on a distal end of the arm, the proximal end of the arm being preferably pivotally coupled to the body portion.
- the belt tensioner is preferably disposed intermediate the proximal and distal ends of the arm. In this preferred embodiment, rotation of the cam causes the arm to pivot about its proximal end and thus displaces the belt tensioner towards or away from the belt.
- the coupling means may comprise a rigid member coupled at a first end to the wing portion at a position located eccentrically with respect to the main axis and coupled at a second end to the belt tensioner, the rigid member preferably being arranged to displace the belt tensioner so as to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
- the coupling of the first end of the rigid member may comprise a slot extending in a direction substantially parallel to a longitudinal axis of the rigid member and a pin arranged for sliding engagement with the slot and constrained therein, the pin being attached to the wing portion. It will be appreciated that this embodiment allows for the translation of the axis of rotation of the pivotal coupling of the first end.
- the coupling of the second end may comprise a pivotal coupling having a fixed axis of rotation.
- the coupling of the second end of the rigid member may comprise a slot extending in a direction substantially parallel to a longitudinal axis of the rigid member and a pin arranged for sliding engagement with the slot and constrained therein, the pin being attached to the belt tensioner.
- the pin is attached to the arm of the coupling means.
- the belt tensioner comprises an axis of rotation, the belt tensioner being preferably connected to the rigid member at a first location and comprising an idler pulley at a second location such that the rigid member acts to rotate the belt tensioner and hence displace the idler pulley to couple and decouple the drive and cutting means according to said angular positions of the wing.
- the rigid member may comprise a rod.
- the body portion preferably comprises an underside, which preferably extends in a plane substantially parallel to the horizontal plane. Further cutting means may be disposed upon the underside of the body portion.
- the body portion may comprise attachment means for attaching to a tractor or other motor vehicle.
- the drive means is preferably arranged to receive power from a Power Take-Off of a tractor.
- the mowing apparatus comprises two wing portions, the wing portions being preferably disposed laterally either side of the body portion.
- FIG. 1 is a perspective view of a mowing apparatus in accordance with the present invention
- FIGS. 2( a ) and 2 ( b ) are front views of the mowing apparatus of FIG. 1 , illustrated in a first configuration in FIG. 2( a ) and a second configuration in FIG. 2( b );
- FIGS. 3( a ) and 3 ( b ) are plan views of the mowing apparatus of FIGS. 1 and 2 , illustrated in the first configuration in FIG. 3( a ) and the second configuration in FIG. 3( b ); and,
- FIGS. 4( a ) and 4 ( b ) are enlarged front views of a portion of the mowing apparatus of FIGS. 1 to 3 , illustrated in the first configuration in FIG. 4( a ) and the second configuration in FIG. 4( b ); and,
- FIGS. 5( a ) and 5 ( b ) are front views of a portion of a mowing apparatus in accordance with an alternative embodiment of the present invention, illustrated in the first configuration in FIG. 5( a ) and the second configuration in FIG. 5( b ).
- FIGS. 1 to 4 of the drawings there is illustrated a mowing apparatus 10 in accordance with the present invention. Whilst the illustrated mowing apparatus 10 is of the tractor-drawn type, it should be appreciated that the present invention is also applicable to other mowing devices such as self-propelled (ride-on) mowers.
- the mowing apparatus 10 comprises a body portion 11 , a first wing portion 12 a and second wing portion 12 b .
- the body portion 11 comprises a longitudinal axis which extends parallel to the direction of travel of the mowing apparatus 10 whilst in use, the wing portions 12 a , 12 b being located laterally symmetrically either side of the longitudinal axis of the body portion 11 .
- An attachment mechanism is disposed at the front of the body portion 11 , the front being defined in relation to the direction of travel of the mowing apparatus 10 whilst in use.
- the attachment mechanism comprises an elongate arm 13 having a collar 14 for cooperation with a tow-bar of a tractor (not shown). Wheels 15 are located at the rear end of the body portion 11 either side of the longitudinal axis thereof.
- a Power Take-Off (PTO) shaft 16 connects a rotary drive (not shown) of the body portion 11 to a Power Take-Off (PTO) of the tractor, thereby enabling the mowing apparatus 10 to receive power from the tractor to which it attaches.
- a plurality of mowing blades are disposed on the underside of the body portion 11 and driven by the rotary drive.
- the body portion 11 comprises two co-axial drive pulleys 17 a , 17 b having an axis of rotation in the horizontal plane.
- the first drive pulley 17 a is arranged for driving the mowing blades of the first wing portion 12 a and the second drive pulley is arranged for driving the mowing blades of the second wing portion 12 b .
- the drive pulleys 17 a , 17 b receive power from the Power Take Off (PTO) of the tractor via the rotary drive.
- PTO Power Take Off
- the wing portion 12 a comprises a mowing deck 18 a having a substantially rectangular lower face (not shown) and an upper face 181 a of substantially equal size and shape.
- the height of the mowing deck 18 a i.e. the separation of the lower and upper faces
- the lower face of the wing portion 12 a comprises a plurality of mowing blades (not shown) arranged for cutting grass and other plant matter.
- the upper face 181 a of the mowing deck 18 a is fixedly coupled to a distal end of an arm 19 a .
- the proximal end of the arm 19 a is pivotally coupled to the body portion 11 about an axis of rotation 20 a substantially parallel to the rotation axis of the co-axial drive pulleys 17 a 17 b .
- the wing portion 12 a is reconfigurable between a lowered position and a raised position relative to the body portion 11 .
- the lowered position of the wing portion 12 a is illustrated in FIGS. 2( a ), 3 ( a ) and 4 ( a ), whilst the raised position of the wing portion 12 a is illustrated in FIGS. 2( b ), 3 ( b ) and 4 ( b ).
- the lower face of the wing portion 12 a is substantially parallel to the plane of the ground.
- the mowing blades (not shown) abut long grass or other plant matter and hence rotary motion of the mowing blades acts to cut any grass or plant matter of a height greater than the height of the blades.
- the wing portion 12 a extends upwardly and hence the width of the mowing apparatus 10 is substantially reduced, thereby allowing for easy transport and storage.
- a driven pulley 21 a is disposed co-axially with the axis of rotation 20 a of the wing portion 12 a and operatively coupled to the mowing blades disposed on the lower face of the mowing deck 18 a .
- the driven pulley 21 a is arranged for cooperation with the drive pulley 17 a via a drive belt 22 a .
- a disk cam 23 a is fixedly coupled to the wing portion 12 a , the cam 23 a having an axis of rotation coaxial with the axis of rotation 20 a of the wing portion 12 a.
- a belt tensioning mechanism is provided for adjusting the tension of the drive belt 22 a in dependence upon the angular position of the wing portion 12 a .
- the belt tensioning mechanism comprises an elongate arm 24 a having a longitudinal axis substantially perpendicular to the axis of rotation 20 a of the wing portion 12 a .
- the proximal end of the arm 24 a is pivotally coupled to the body portion 11 about an axis of rotation substantially parallel to the axis of rotation 20 a of the wing portion 12 a .
- the distal end of the arm 24 a comprises a cam-follower 25 a arranged to contact the cam 23 a at a contact location 231 a on the outer radial edge of the cam 23 a .
- the position of the contact location 231 a varies in dependence upon rotation of the cam 23 a and hence the rotation of the wing portion 12 a .
- An idler pulley 26 a protrudes laterally from the arm 24 a intermediate the distal and proximal ends thereof, the axis of rotation of the idler pulley 26 a being substantially parallel to the axis of rotation 20 a of the wing portion 12 a and hence substantially parallel to the axis of rotation of the drive pulley 17 a and driven pulley 21 a .
- the arm 24 a is biased towards the belt 22 a by a gas spring 27 a but is selectively deflected therefrom by the interaction between the cam 23 a and cam-follower 25 a .
- the cam 23 a has an outer radial edge comprising a circumferentially varying radius: the outer radial edge of the cam 23 a comprises a first radial dimension R1 and a second radial dimension R2 greater than the first radial dimension.
- the outer radial edge of the cam 23 a comprises the first radial dimension R1 when the angle between the lower face of the wing portion 12 a and the ground is between 0 degrees and 30 degrees.
- the outer radial edge of the cam comprises the second radial dimension R2 when the angle between the lower face of the wing portion 12 a and the ground is between 0 degrees and 90 degrees.
- the idler pulley 26 a engages with the drive belt 22 a when the outer radial edge of the cam 23 a at the contact location comprises the first radial dimension R1 i.e. when the angle between the lower face of the wing portion 12 a and the ground is less than 30 degrees.
- the drive belt is in the under tension whilst the idler pulley 26 a is engaged therewith, and hence the mowing blades are driven by the drive assembly.
- the outer radial edge of the cam 23 a comprises the second radial dimension R2.
- this radial dimension R2 is larger than the first radial dimension R1
- the arm 24 a is deflected away from the drive belt 22 a and hence the idler pulley 26 a disengages with the drive belt 22 a .
- the drive belt 22 a is not under tension whilst the idler pulley 26 a is disengaged, and hence the drive pulley 17 a and driven pulley 21 a are decoupled and the mowing blades are disengaged.
- the angle of approximately 30 degrees at which the transition between the first radial dimension R1 and the second radial dimension R2 occurs is believed by the applicants to offer the ideal compromise between the ability of the mowing apparatus to traverse undulations and the safety risk of unguarded mowing blades.
- the cam 23 a may be formed such that transition between the first radial dimension R1 and the second radial dimension R2 occurs at an angle other than 30 degrees and hence the angle of the wing portion 12 to the horizontal plane in the partially raised position in which the mowing blades are decoupled may be an angle other than 30 degrees.
- FIG. 5 of the drawings there is illustrated an alternative embodiment of a mowing apparatus in accordance with the present invention.
- the mowing apparatus comprises many of the same features as those described above with reference to FIGS. 1 to 4 , with like features being given like reference numerals.
- the alternative embodiment illustrated in FIG. 5 comprises an alternative coupling mechanism intermediate the drive pulley 17 a disposed on the body portion 11 and driven pulley 21 a disposed on the wing portion 12 a .
- the following description relates to the first wing portion 12 a but the second wing portion 12 b comprises an equivalent arrangement.
- the belt tensioning mechanism comprises an elongate arm 24 a having a longitudinal axis substantially perpendicular to the axis of rotation 20 a of the wing portion 12 a .
- the proximal end of the arm 24 a is pivotally coupled to the body portion 11 about an axis of rotation substantially parallel to the axis of rotation 20 a of the wing portion 12 a .
- the arm 24 a is biased towards the belt 22 a intermediate the drive pulley 17 a and driven pulley 21 a by a gas spring 27 a , but is selectively deflected therefrom by the rod 28 a.
- An elongate finger portion 241 a protrudes laterally from a position on the arm 24 a approximately mid-way between the proximal and distal ends thereof.
- a pin 242 a is secured to the elongate finger portion at a distal end thereof.
- the pin 242 a is constrained within an elongate slot 281 a formed within a rigid rod 28 a such that the pin 242 a may move slidingly within the slot 281 a .
- the rod 28 a extends to the wing portion 12 a and is coupled thereto.
- the rod 28 a is pivotally coupled to the wing portion 12 a at a position displaced from the axis of rotation 20 a of the wing portion 21 a . Accordingly, rotation of the wing portion 21 a acts to displace the rod 28 a.
- An idler pulley 26 a protrudes laterally from the arm 24 a at a proximal end thereof, the axis of rotation of the idler pulley 26 a being substantially parallel to the axis of rotation 20 a of the wing portion 12 a and hence substantially parallel to the axis of rotation of the drive pulley 17 a and driven pulley 21 a.
- the pin 242 a is disposed substantially centrally within the slot 281 a and thus the rod 28 a does not exert a force on the arm 24 a .
- the position of the arm 24 a is dictated solely by the actions of gravity and the gas spring 27 a .
- the arm 24 a is directed towards the drive belt 22 a intermediate the drive pulley 17 a and driven pulley 21 a such that the idler pulley 26 a is in contact with the belt 22 a and the belt 22 a is under tension. Accordingly, in this configuration the drive pulley 17 a and driven pulley 21 a are coupled and hence power is supplied to the mowing deck 18 a.
- the coupling point intermediate the rod 28 a and wing portion 12 a moves clockwise and hence towards the body portion 11 in the illustrated example. Accordingly, the pin 242 a moves leftwardly within the slot 281 a i.e. towards the end of the slot 281 a proximal to the wing portion 12 a . As illustrated in FIG. 5( b ), when the angle of the wing portion 12 a is approximately 30 degrees to the horizontal, the pin 242 a is located at the leftmost end of the slot 281 a .
- Any further rotation of the wing portion 12 a exerts a force on the arm 24 a that acts to deflect the idler pulley 26 a away from the belt 22 , thereby relieving tension from the belt 22 and hence decoupling the driven pulley 21 a from the drive pulley 17 a.
- the slot 281 a within the rod 28 a ensures that there is an angular range of movement in which the position of the arm 24 a , and hence the tension within the belt 22 , remains constant. Furthermore, the slot 281 a minimises any risk of damage to the mechanism as the wing portion 12 a to move up and down following the ground contours.
- the present invention provides a simple yet effective means of automatically disengaging the mowing blades of a wing portion of a mowing apparatus when the wing portion is raised above a certain angle.
Abstract
A mowing apparatus including a body portion comprising rotary drive means (not shown) and a wing portion pivotable about a main axis relative to the body portion between a lowered cutting position and a raised position, the wing portion comprising rotary cutting means (not shown) arranged to cut the grass or other plant matter, the drive means and the cutting means being coupled through a limited range of angular positions of the wing between the lowered position and a partially raised position.
Description
- 1. Field of the Invention
- This invention relates to a mechanism for automatically engaging and/or disengaging a mowing blade of a pivotable mowing wing, and particularly but not exclusively to a mechanism for automatically engaging and/or disengaging a mowing blade of a pivotable mowing wing of a co-axial vertical drive belt mowing apparatus.
- As used herein, the horizontal plane is defined in as the plane parallel to the ground on which the mowing apparatus is situated.
- Similarly, as used herein, the vertical direction is defined as the direction perpendicular to the above-defined horizontal plane i.e. perpendicular to the plane of the ground on which the mowing apparatus is situated. It will be appreciated that this may differ slightly from the vertical direction defined in terms of the direction of gravity if the mower is situated on sloping ground.
- 2. Brief Discussion of the Related Art
- Mowers are widely used for cutting grass and plant matter. A wide variety of mowers are available for both domestic and industrial use including push-mowers, self-propelled mowers and tractor-drawn mowers. The present invention predominantly relates to self-propelled mowers and tractor-drawn mowers for agricultural or other industrial use but is not limited to this application.
- A typical self-propelled (ride-on) mower comprises a body portion having a plurality of mowing blades located on its disposed face. The mowing blades are powered by a drive pulley, which receives energy from a rotary drive. The mower may also comprise one or more wing portions pivotally coupled to the body portion. Generally two wing portions are disposed laterally either side of the body portion with respect to the direction of travel of the mower. A third wing portion may also be disposed rearwardly of the body portion with respect to the direction of travel. An underside of each wing portion comprises a plurality of mowing blades powered by a driven pulley operatively coupled to the drive pulley.
- Similarly, a typical tractor-drawn mower comprises a body portion and one or more wing portions pivotally coupled thereto. The body portion includes attachment means for detachably coupling to a tractor (for example via a 3-point hitch of the tractor) and a rotary drive assembly arranged to receive power from a Power Take Off (PTO) of the tractor. A plurality of mowing places are disposed on the lower face of the body portion and powered by the drive assembly via a drive pulley. The wing portions are generally disposed laterally of the body portion but the mower may also comprise a wing portion disposed rearwardly of the body portion. An underside of each wing portion includes a plurality of mowing blades powered by a driven pulley operatively coupled to the drive pulley.
- In both the self-propelled and tractor-drawn mowers, the pivotal coupling between the body portion and wing portions enables rotation of the wing portions between a lowered position and a raised position. In the lowered position, each wing portion is aligned such that its underside is substantially in the horizontal plane i.e. substantially parallel to the plane of the ground below the mowing apparatus. In order to cut grass or other plant material, the wing portions are configured in the lowered position and the mowing blades are engaged. In the raised position, the wing portions are pivoted away from the ground, typically at an angle of approximately 90 degrees relative to the ground. Whilst in the raised position, the footprint of the mowing apparatus is substantially reduced, thereby facilitating transport and storage. However, it will be appreciated that whilst the wing portions are in the raised position, the mowing blades are exposed and thus rotation of the mowing blades presents a serious safety risk. Accordingly, it is desirable to automatically disengage the mowing blades of the wing portions when the wing portions are raised above a certain angle relative to the ground.
- A number of solutions to the problem of disengaging the mowing blades have been proposed, each solution particular to the type of drive system utilised within the mowing apparatus.
- One known drive system comprises a horizontal drive belt arrangement. In this arrangement the drive pulley and driven pulley have substantially vertical axes of rotation. One problem with this known arrangement is that the drive belt becomes slack when the wing portion is raised above approximately 13 degrees relative to the ground. Accordingly, the mowing blades disposed on the underside of the wing portions are disengaged when the wing is raised above this angle. It will be appreciated that this greatly limits the ability of the mowing apparatus to follow ground undulations whilst maintaining drive to the blades. Furthermore, the drive belt must be checked and adjusted on a regular basis in order to maintain efficient engagement between the belt and the pulleys and to minimise belt wear. This requires the attention of a skilled mechanic and can result in significant machine downtime.
- One possible solution to the above-mentioned problems is to replace the horizontal belt drive with a vertical belt drive, in which the axes of rotation of the drive pulley and driven pulley extend in the horizontal plane. Within a vertical belt drive system, the driven pulley may be mounted co-axially with the axis of rotation of the wing portion, or it may be displaced therefrom.
- In the co-axial arrangement, the position of both the drive pulley and the driven pulley is fixed throughout the range of movement of the wing portion and hence the driven pulley remains operatively coupled to the drive pulley and the mowing blades remain engaged when the wing portion is raised. In order to disengage the blades, one known device includes a push rod that is displaced within the gearbox and forces the disengagement of the mowing blades. A major problem with this arrangement is that it is similar to putting a vehicle in gear without depressing the clutch and thus it causes significant wear and tear to the gearbox. Furthermore, the mowing blades cannot be re-engaged once the wing has been lowered again unless this is done manually, thereby requiring the operator to leave the safe environment of his cab.
- In the non co-axial arrangement, the position of the driven pulley with respect to the drive pulley varies in accordance with the angular position of the wing portion. As such, the drive belt maintains its tension for a limited angular range of motion, typically becoming slack and thus disengaging the mowing blades once the wing portion is raised above an angle of 20 degrees to the horizontal. A disadvantage of this arrangement is that it limits the ability of the mowing apparatus to follow ground undulations whilst maintaining drive to the blades. Furthermore, the drive belt must be checked and adjusted on a regular basis to maintain efficient drive and to minimise belt wear.
- We have now devised an improved mowing apparatus.
- In accordance with the present invention there is provided a mowing apparatus comprising:
- a body portion comprising rotary drive means;
- a wing portion for engaging the grass or other plant matter to be cut, the wing portion comprising rotary cutting means arranged to cut the grass or other plant matter and being pivotable about a main axis relative to the body portion between a lowered cutting position and a raised position; and,
- means for coupling said drive means to said cutting means through a limited range of angular positions of the wing between said lowered position and a partially raised position, said coupling means being arranged to couple said drive means and said cutting means when the wing is in said lowered position and decouple said drive means from said cutting means when the wing is in said raised position.
- Advantageously the cutting means of the wing portion is automatically engaged or disengaged as the angular position of the wing portion is varied, thereby alleviating the safety risk associated with the exposed mowing blades.
- The coupling means preferably comprises:
- a first pulley provided on the body and coupled to said rotary drive means,
- a second pulley mounted on the wing portion for rotation about an axis which extends longitudinally of said main axis, the second pulley being connected to said cutting means,
- a belt extending around said first and second pulleys, and
- a belt tensioner arranged to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
- The axis of rotation of the second pulley is preferably co-axial with the main axis.
- The axis of rotation of the first pulley is preferably substantially parallel to the axis of rotation of the second pulley. More preferably, the axis of rotation of both the first and second pulleys is substantially in the horizontal plane i.e. the mowing apparatus is preferably of the co-axial vertical drive belt type.
- Preferably the belt tensioner comprises an idler pulley and is preferably rotatably mounted so as to displace the idler pulley via rotation of the belt tensioner, the displacement of the idler pulley preferably acting to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
- The idler pulley may be biased towards the belt by biasing means, which may comprise a spring and preferably comprises a gas spring.
- The coupling means may further comprise an arm pivotally coupled at its proximal end to the body portion. The idler pulley may be disposed on the arm such that rotation of the arm acts to displace the idler pulley and thereby vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
- Preferably the wing portion is inclined at an angle of approximately 30 degrees to the horizontal plane in said partially raised position. In this context, the term “approximately” should be interpreted as within 10 degrees.
- The coupling means preferably comprises a cam and a cam follower respectively provided on said portions, the drive and cutting means being coupled and decoupled by the cam follower according to the profile of the cam.
- The cam is preferably disposed at an edge of the wing portion proximal to the body portion. Preferably an axis of rotation of the cam is substantially parallel to the main axis, and most preferably coaxial with the main axis. It will be appreciated that in this arrangement, the wing portion and the cam rotate concurrently i.e. the degree of rotation of the cam is equivalent to the degree of rotation of the wing portion.
- Preferably the cam is a disk cam, the cam follower preferably moving in plane perpendicular to axis of cam.
- The cam preferably comprises an outer radial edge comprising a first radial dimension and a second circumferentially spaced radial dimension, wherein the second radial dimension is not equal to the first radial dimension. The second radial dimension is preferably greater than the first radial dimension. In this preferred embodiment, the belt couples the drive and cutting means when the outer radial edge at the contact location comprises the first radial dimension whilst the drive and cutting means are decoupled when the outer radial edge at the contact location comprises the second radial dimension.
- Preferably the outer radial edge of the cam comprises the first radial dimension when the angular position of the wing portion is such that the wing portion is inclined at an angle of less than approximately 30 degrees to the horizontal plane. Again, in this context, the term “approximately” should be interpreted as within 10 degrees.
- Preferably the outer radial edge of the cam comprises the second radial dimension when the angular position of the wing portion is such that the wing portion is inclined at an angle of greater than approximately 30 degrees. Again, in this context, the term “approximately” should be interpreted as within 10 degrees. It will be appreciated that in this preferred embodiment, the belt couples the drive and cutting means when the wing portion forms an angle of less than approximately 30 degrees to the horizontal plane, whilst the drive and cutting means are decoupled when the wing portion forms an angle of greater than approximately 30 degrees to the horizontal plane.
- In the embodiment in which the coupling means comprises a belt tensioner, the cam follower may be arranged to displace the belt tensioner so as to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
- Preferably the cam follower is located on a distal end of the arm, the proximal end of the arm being preferably pivotally coupled to the body portion. The belt tensioner is preferably disposed intermediate the proximal and distal ends of the arm. In this preferred embodiment, rotation of the cam causes the arm to pivot about its proximal end and thus displaces the belt tensioner towards or away from the belt.
- Alternatively, the coupling means may comprise a rigid member coupled at a first end to the wing portion at a position located eccentrically with respect to the main axis and coupled at a second end to the belt tensioner, the rigid member preferably being arranged to displace the belt tensioner so as to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
- The coupling of the first end of the rigid member may comprise a slot extending in a direction substantially parallel to a longitudinal axis of the rigid member and a pin arranged for sliding engagement with the slot and constrained therein, the pin being attached to the wing portion. It will be appreciated that this embodiment allows for the translation of the axis of rotation of the pivotal coupling of the first end. In this embodiment, the coupling of the second end may comprise a pivotal coupling having a fixed axis of rotation.
- Alternatively, the coupling of the second end of the rigid member may comprise a slot extending in a direction substantially parallel to a longitudinal axis of the rigid member and a pin arranged for sliding engagement with the slot and constrained therein, the pin being attached to the belt tensioner. Preferably the pin is attached to the arm of the coupling means. It will be appreciated that this embodiment allows for the translation of the axis of rotation of the pivotal coupling of the second end. In this embodiment, the coupling of the first end may comprise a pivotal coupling having a fixed axis of rotation.
- Preferably the belt tensioner comprises an axis of rotation, the belt tensioner being preferably connected to the rigid member at a first location and comprising an idler pulley at a second location such that the rigid member acts to rotate the belt tensioner and hence displace the idler pulley to couple and decouple the drive and cutting means according to said angular positions of the wing.
- The rigid member may comprise a rod.
- The body portion preferably comprises an underside, which preferably extends in a plane substantially parallel to the horizontal plane. Further cutting means may be disposed upon the underside of the body portion.
- The body portion may comprise attachment means for attaching to a tractor or other motor vehicle. The drive means is preferably arranged to receive power from a Power Take-Off of a tractor.
- Preferably the mowing apparatus comprises two wing portions, the wing portions being preferably disposed laterally either side of the body portion.
- An embodiment of the present invention will now be described by way of example only and with reference to the accompanying drawings, in which:
-
FIG. 1 is a perspective view of a mowing apparatus in accordance with the present invention; -
FIGS. 2( a) and 2(b) are front views of the mowing apparatus ofFIG. 1 , illustrated in a first configuration inFIG. 2( a) and a second configuration inFIG. 2( b); -
FIGS. 3( a) and 3(b) are plan views of the mowing apparatus ofFIGS. 1 and 2 , illustrated in the first configuration inFIG. 3( a) and the second configuration inFIG. 3( b); and, -
FIGS. 4( a) and 4(b) are enlarged front views of a portion of the mowing apparatus ofFIGS. 1 to 3 , illustrated in the first configuration inFIG. 4( a) and the second configuration inFIG. 4( b); and, -
FIGS. 5( a) and 5(b) are front views of a portion of a mowing apparatus in accordance with an alternative embodiment of the present invention, illustrated in the first configuration inFIG. 5( a) and the second configuration inFIG. 5( b). - Referring to
FIGS. 1 to 4 of the drawings, there is illustrated amowing apparatus 10 in accordance with the present invention. Whilst the illustratedmowing apparatus 10 is of the tractor-drawn type, it should be appreciated that the present invention is also applicable to other mowing devices such as self-propelled (ride-on) mowers. - The
mowing apparatus 10 comprises abody portion 11, afirst wing portion 12 a andsecond wing portion 12 b. Thebody portion 11 comprises a longitudinal axis which extends parallel to the direction of travel of themowing apparatus 10 whilst in use, thewing portions body portion 11. - An attachment mechanism is disposed at the front of the
body portion 11, the front being defined in relation to the direction of travel of themowing apparatus 10 whilst in use. In the illustrated embodiment, the attachment mechanism comprises anelongate arm 13 having acollar 14 for cooperation with a tow-bar of a tractor (not shown).Wheels 15 are located at the rear end of thebody portion 11 either side of the longitudinal axis thereof. A Power Take-Off (PTO)shaft 16 connects a rotary drive (not shown) of thebody portion 11 to a Power Take-Off (PTO) of the tractor, thereby enabling themowing apparatus 10 to receive power from the tractor to which it attaches. A plurality of mowing blades (not shown) are disposed on the underside of thebody portion 11 and driven by the rotary drive. - The
body portion 11 comprises two co-axial drive pulleys 17 a, 17 b having an axis of rotation in the horizontal plane. Thefirst drive pulley 17 a is arranged for driving the mowing blades of thefirst wing portion 12 a and the second drive pulley is arranged for driving the mowing blades of thesecond wing portion 12 b. The drive pulleys 17 a, 17 b receive power from the Power Take Off (PTO) of the tractor via the rotary drive. - The following description relates to the
first wing portion 12 a but thesecond wing portion 12 b comprises an equivalent arrangement. Thewing portion 12 a comprises a mowingdeck 18 a having a substantially rectangular lower face (not shown) and anupper face 181 a of substantially equal size and shape. The height of the mowingdeck 18 a (i.e. the separation of the lower and upper faces) is small in comparison to the dimensions of the upper and lower faces. The lower face of thewing portion 12 a comprises a plurality of mowing blades (not shown) arranged for cutting grass and other plant matter. Theupper face 181 a of the mowingdeck 18 a is fixedly coupled to a distal end of anarm 19 a. The proximal end of thearm 19 a is pivotally coupled to thebody portion 11 about an axis ofrotation 20 a substantially parallel to the rotation axis of the co-axial drive pulleys 17 a 17 b. By virtue of the pivotal coupling, thewing portion 12 a is reconfigurable between a lowered position and a raised position relative to thebody portion 11. The lowered position of thewing portion 12 a is illustrated inFIGS. 2( a), 3(a) and 4(a), whilst the raised position of thewing portion 12 a is illustrated inFIGS. 2( b), 3(b) and 4(b). In the lowered position, the lower face of thewing portion 12 a is substantially parallel to the plane of the ground. In this position the mowing blades (not shown) abut long grass or other plant matter and hence rotary motion of the mowing blades acts to cut any grass or plant matter of a height greater than the height of the blades. In the raised position, thewing portion 12 a extends upwardly and hence the width of themowing apparatus 10 is substantially reduced, thereby allowing for easy transport and storage. - A driven
pulley 21 a is disposed co-axially with the axis ofrotation 20 a of thewing portion 12 a and operatively coupled to the mowing blades disposed on the lower face of the mowingdeck 18 a. The drivenpulley 21 a is arranged for cooperation with thedrive pulley 17 a via adrive belt 22 a. Adisk cam 23 a is fixedly coupled to thewing portion 12 a, thecam 23 a having an axis of rotation coaxial with the axis ofrotation 20 a of thewing portion 12 a. - A belt tensioning mechanism is provided for adjusting the tension of the
drive belt 22 a in dependence upon the angular position of thewing portion 12 a. The belt tensioning mechanism comprises anelongate arm 24 a having a longitudinal axis substantially perpendicular to the axis ofrotation 20 a of thewing portion 12 a. The proximal end of thearm 24 a is pivotally coupled to thebody portion 11 about an axis of rotation substantially parallel to the axis ofrotation 20 a of thewing portion 12 a. The distal end of thearm 24 a comprises a cam-follower 25 a arranged to contact thecam 23 a at acontact location 231 a on the outer radial edge of thecam 23 a. It will be appreciated that the position of thecontact location 231 a varies in dependence upon rotation of thecam 23 a and hence the rotation of thewing portion 12 a. Anidler pulley 26 a protrudes laterally from thearm 24 a intermediate the distal and proximal ends thereof, the axis of rotation of theidler pulley 26 a being substantially parallel to the axis ofrotation 20 a of thewing portion 12 a and hence substantially parallel to the axis of rotation of thedrive pulley 17 a and drivenpulley 21 a. Thearm 24 a is biased towards thebelt 22 a by agas spring 27 a but is selectively deflected therefrom by the interaction between thecam 23 a and cam-follower 25 a. In particular, thecam 23 a has an outer radial edge comprising a circumferentially varying radius: the outer radial edge of thecam 23 a comprises a first radial dimension R1 and a second radial dimension R2 greater than the first radial dimension. In the illustrated embodiment, the outer radial edge of thecam 23 a comprises the first radial dimension R1 when the angle between the lower face of thewing portion 12 a and the ground is between 0 degrees and 30 degrees. The outer radial edge of the cam comprises the second radial dimension R2 when the angle between the lower face of thewing portion 12 a and the ground is between 0 degrees and 90 degrees. Theidler pulley 26 a engages with thedrive belt 22 a when the outer radial edge of thecam 23 a at the contact location comprises the first radial dimension R1 i.e. when the angle between the lower face of thewing portion 12 a and the ground is less than 30 degrees. The drive belt is in the under tension whilst theidler pulley 26 a is engaged therewith, and hence the mowing blades are driven by the drive assembly. Once thewing portion 12 a is raised above 30 degrees, the outer radial edge of thecam 23 a comprises the second radial dimension R2. Since this radial dimension R2 is larger than the first radial dimension R1, thearm 24 a is deflected away from thedrive belt 22 a and hence theidler pulley 26 a disengages with thedrive belt 22 a. Thedrive belt 22 a is not under tension whilst theidler pulley 26 a is disengaged, and hence thedrive pulley 17 a and drivenpulley 21 a are decoupled and the mowing blades are disengaged. - The angle of approximately 30 degrees at which the transition between the first radial dimension R1 and the second radial dimension R2 occurs is believed by the applicants to offer the ideal compromise between the ability of the mowing apparatus to traverse undulations and the safety risk of unguarded mowing blades. However, it will be appreciated that the
cam 23 a may be formed such that transition between the first radial dimension R1 and the second radial dimension R2 occurs at an angle other than 30 degrees and hence the angle of the wing portion 12 to the horizontal plane in the partially raised position in which the mowing blades are decoupled may be an angle other than 30 degrees. - Referring to
FIG. 5 of the drawings, there is illustrated an alternative embodiment of a mowing apparatus in accordance with the present invention. The mowing apparatus comprises many of the same features as those described above with reference toFIGS. 1 to 4 , with like features being given like reference numerals. The alternative embodiment illustrated inFIG. 5 comprises an alternative coupling mechanism intermediate thedrive pulley 17 a disposed on thebody portion 11 and drivenpulley 21 a disposed on thewing portion 12 a. The following description relates to thefirst wing portion 12 a but thesecond wing portion 12 b comprises an equivalent arrangement. - Similarly to the first embodiment, the belt tensioning mechanism comprises an
elongate arm 24 a having a longitudinal axis substantially perpendicular to the axis ofrotation 20 a of thewing portion 12 a. The proximal end of thearm 24 a is pivotally coupled to thebody portion 11 about an axis of rotation substantially parallel to the axis ofrotation 20 a of thewing portion 12 a. Thearm 24 a is biased towards thebelt 22 a intermediate thedrive pulley 17 a and drivenpulley 21 a by agas spring 27 a, but is selectively deflected therefrom by therod 28 a. - An
elongate finger portion 241 a protrudes laterally from a position on thearm 24 a approximately mid-way between the proximal and distal ends thereof. Apin 242 a is secured to the elongate finger portion at a distal end thereof. Thepin 242 a is constrained within anelongate slot 281 a formed within arigid rod 28 a such that thepin 242 a may move slidingly within theslot 281 a. Therod 28 a extends to thewing portion 12 a and is coupled thereto. In particular, therod 28 a is pivotally coupled to thewing portion 12 a at a position displaced from the axis ofrotation 20 a of thewing portion 21 a. Accordingly, rotation of thewing portion 21 a acts to displace therod 28 a. - An
idler pulley 26 a protrudes laterally from thearm 24 a at a proximal end thereof, the axis of rotation of theidler pulley 26 a being substantially parallel to the axis ofrotation 20 a of thewing portion 12 a and hence substantially parallel to the axis of rotation of thedrive pulley 17 a and drivenpulley 21 a. - In use, when the
wing portion 12 a is in the lowered position illustrated inFIG. 5( a), thepin 242 a is disposed substantially centrally within theslot 281 a and thus therod 28 a does not exert a force on thearm 24 a. In this position, the position of thearm 24 a is dictated solely by the actions of gravity and thegas spring 27 a. As a result of the bias exerted by thegas spring 27 a, thearm 24 a is directed towards thedrive belt 22 a intermediate thedrive pulley 17 a and drivenpulley 21 a such that theidler pulley 26 a is in contact with thebelt 22 a and thebelt 22 a is under tension. Accordingly, in this configuration thedrive pulley 17 a and drivenpulley 21 a are coupled and hence power is supplied to the mowingdeck 18 a. - As the
wing portion 12 a is raised from the horizontal position, the coupling point intermediate therod 28 a andwing portion 12 a moves clockwise and hence towards thebody portion 11 in the illustrated example. Accordingly, thepin 242 a moves leftwardly within theslot 281 a i.e. towards the end of theslot 281 a proximal to thewing portion 12 a. As illustrated inFIG. 5( b), when the angle of thewing portion 12 a is approximately 30 degrees to the horizontal, thepin 242 a is located at the leftmost end of theslot 281 a. Any further rotation of thewing portion 12 a exerts a force on thearm 24 a that acts to deflect theidler pulley 26 a away from the belt 22, thereby relieving tension from the belt 22 and hence decoupling the drivenpulley 21 a from thedrive pulley 17 a. - It will be appreciated that the
slot 281 a within therod 28 a ensures that there is an angular range of movement in which the position of thearm 24 a, and hence the tension within the belt 22, remains constant. Furthermore, theslot 281 a minimises any risk of damage to the mechanism as thewing portion 12 a to move up and down following the ground contours. - From the foregoing therefore, it is evident that the present invention provides a simple yet effective means of automatically disengaging the mowing blades of a wing portion of a mowing apparatus when the wing portion is raised above a certain angle.
Claims (26)
1. A mowing apparatus comprising:
a body portion comprising rotary drive means;
a wing portion for engaging the grass or other plant matter to be cut, the wing portion comprising rotary cutting means arranged to cut the grass or other plant matter and being pivotable about a main axis relative to the body portion between a lowered cutting position and a raised position; and,
means for coupling said drive means to said cutting means through a limited range of angular positions of the wing between said lowered position and a partially raised position, said coupling means being arranged to couple said drive means and said cutting means when the wing is in said lowered position and decouple said drive means from said cutting means when the wing is in said partially raised position.
2. The mowing apparatus according to claim 1 , wherein the coupling means comprises: a first pulley provided on the body and coupled to said rotary drive means, a second pulley mounted on the wing portion for rotation about an axis which extends longitudinally of said main axis, the second pulley being connected to said cutting means,
a belt extending around said first and second pulleys, and
a belt tensioner arranged to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
3. The mowing apparatus according to claim 2 , wherein the axis of rotation of the second pulley is coaxial with the main axis.
4. The mowing apparatus according to claim 2 , wherein the axis of rotation of the first pulley is substantially parallel to the axis of rotation of the second pulley.
5. The mowing apparatus according to claim 2 , wherein the belt tensioner comprises an idler pulley.
6. The mowing apparatus according to claim 5 , wherein the idler pulley is biased towards the belt by biasing means.
7. The mowing apparatus according to claim 6 , wherein the biasing means comprises a gas spring.
8. The mowing apparatus according to claim 5 , further comprising an arm pivotally coupled at its proximal end to the body portion, wherein the idler pulley is disposed on the arm such that rotation of the arm acts to displace the idler pulley and thereby vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
9. The mowing apparatus according to claim 1 , wherein the wing portion is inclined at an angle of approximately 30 degrees to the horizontal plane in said partially raised position.
10. The mowing apparatus according to claim 1 , wherein the coupling means comprises a cam and a cam follower respectively provided on said portions, the drive and cutting means being coupled and decoupled by the cam follower according to the profile of the cam,
11. The mowing apparatus according to claim 10 , wherein an axis of rotation of the cam is substantially parallel to the main axis.
12. The mowing apparatus according to claim 11 , wherein the axis of rotation of the cam is coaxial with the main axis.
13. The mowing apparatus according to claim 10 , wherein the cam comprises an outer radial edge comprising a first radial dimension and a second circumferentially spaced radial dimension not equal to the first radial dimension.
14. The mowing apparatus according to claim 2 , wherein the coupling means comprises a cam and a cam follower respectively provided on said portions, the drive and cutting means being coupled and decoupled by the cam follower according to the profile of the cam; and
wherein the cam follower is arranged to displace the belt tensioner so as to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
15. The mowing apparatus according to claim 8 , wherein the coupling means comprises a cam and a cam follower respectively provided on said portions, the drive and cutting means being coupled and decoupled by the cam follower according to the profile of the cam;
wherein the cam follower is arranged to displace e belt tensioner so as to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing; and
wherein the cam follower is disposed on a distal end of the arm and the belt tensioner is disposed intermediate the proximal and distal ends of the arm.
16. The mowing apparatus according to claim 2 , wherein the coupling means comprises a rigid member coupled at a first end to the wing portion at a position located eccentrically with respect to the main axis and coupled at a second end to the belt tensioner, the rigid member being arranged to displace the belt tensioner so as to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing.
17. The mowing apparatus according to claim 16 , wherein the coupling of the first end of the rigid member comprises a slot extending in a direction substantially parallel to a longitudinal axis of the rigid member and a pin arranged for sliding engagement with the slot and constrained therein, the pin being attached to the wing portion.
18. The mowing apparatus according to claim 17 , wherein the coupling of the second end of the rigid member comprises a pivotal coupling having a fixed axis of rotation.
19. The mowing apparatus according to claim 16 , wherein the coupling of the second end of the rigid member comprises a slot extending in a direction substantially parallel to a longitudinal axis of the rigid member and a pin arranged for sliding engagement with the slot and constrained therein, the pin being attached to the belt tensioner.
20. The mowing apparatus according to claim 8 , wherein the coupling means comprises a rigid member coupling a first end to the wing portion at a position located eccentrically with respect to the main axis and coupled at a second end to the belt tensioner, the rigid member being arranged to displace the belt tensioner so as to vary the tension of the belt to couple and decouple the drive and cutting means according to said angular positions of the wing;
wherein the coupling of the second end of the rigid member comprises a slot extending in a direction substantially parallel to a longitudinal axis of the rigid member and a pin arranged or sliding engagement with the slot and constrained therein, the pin being attached to the belt tensioner; and
wherein the pin is fixedly coupled to the arm.
21. The mowing apparatus according to claim 19 , wherein the coupling of the first end of the rigid member comprises a pivotal coupling having a fixed axis of rotation.
22. The mowing apparatus according to claim 1 , wherein the body portion comprises cutting means disposed on an underside of thereof.
23. The mowing apparatus according to claim 1 , wherein the body portion comprises attachment means for attaching to a tractor or other motor vehicle.
24. The mowing apparatus according to claim 1 , wherein the drive means is arranged to receive power from a Power Take-Off of a tractor.
25. A mowing apparatus according to claim 1 , wherein the mowing apparatus comprises a second wing portion, the two wing portions being disposed laterally either side of the body portion.
26. (canceled)
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
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GB1215473.8A GB2505461A (en) | 2012-08-30 | 2012-08-30 | Mowing apparatus having pivotable wing portions |
GB1215473.8 | 2012-08-30 | ||
GB1223518.0A GB2505534A (en) | 2012-08-30 | 2012-12-31 | Mowing apparatus having pivotable wing portions |
GB1223518.0 | 2012-12-31 | ||
PCT/GB2013/052222 WO2014033435A1 (en) | 2012-08-30 | 2013-08-22 | Automatic mowing blade engagement and disengagement for winged mower |
Publications (1)
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US20150223397A1 true US20150223397A1 (en) | 2015-08-13 |
Family
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Family Applications (1)
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US14/424,858 Abandoned US20150223397A1 (en) | 2012-08-30 | 2013-08-22 | Automatic mowing blade engagement and disengagement for winged mower |
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US (1) | US20150223397A1 (en) |
EP (1) | EP2890234B1 (en) |
GB (2) | GB2505461A (en) |
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US9648806B2 (en) * | 2015-04-28 | 2017-05-16 | Crosstech Manufacturing, Inc. | Hydraulic brush cutter |
US9986676B2 (en) * | 2014-12-01 | 2018-06-05 | Claas Saulgau Gmbh | Mowing device with a working configuration and a transport configuration and a method of operation |
US10130026B2 (en) * | 2013-05-03 | 2018-11-20 | Jacky Van De Sluis | Gang mower with reel mower cutting units |
US20220104424A1 (en) * | 2020-10-02 | 2022-04-07 | Oregon Tool, Inc. | Clutched driveline for wings on flex wing cutter |
US11382263B2 (en) * | 2018-02-19 | 2022-07-12 | Exmark Manufacturing Company, Incorporated | Articulating cutting deck |
US11395459B2 (en) | 2013-05-03 | 2022-07-26 | Jacky Van De Sluis | Gang mower with reel mower cutting units carried by two V-shaped beams foldable on a trailer frame |
US11477938B2 (en) * | 2018-11-05 | 2022-10-25 | Alamo Group Inc. | Flex wing mower |
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US10130026B2 (en) * | 2013-05-03 | 2018-11-20 | Jacky Van De Sluis | Gang mower with reel mower cutting units |
US11395459B2 (en) | 2013-05-03 | 2022-07-26 | Jacky Van De Sluis | Gang mower with reel mower cutting units carried by two V-shaped beams foldable on a trailer frame |
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US11477938B2 (en) * | 2018-11-05 | 2022-10-25 | Alamo Group Inc. | Flex wing mower |
US11716927B2 (en) | 2018-11-05 | 2023-08-08 | Alamo Group Inc. | Flex wing mower |
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Also Published As
Publication number | Publication date |
---|---|
WO2014033435A1 (en) | 2014-03-06 |
GB201215473D0 (en) | 2012-10-17 |
GB2505461A (en) | 2014-03-05 |
EP2890234B1 (en) | 2017-03-22 |
EP2890234A1 (en) | 2015-07-08 |
GB2505534A (en) | 2014-03-05 |
GB201223518D0 (en) | 2013-02-13 |
WO2014033434A1 (en) | 2014-03-06 |
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Legal Events
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AS | Assignment |
Owner name: WESSEX INTERNATIONAL MACHINERY, UNITED KINGDOM Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:BROWNING, CHARLES;REEL/FRAME:037524/0786 Effective date: 20151215 |
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STCB | Information on status: application discontinuation |
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